models/openconfig/src/main/yang/ospf/openconfig-ospf-types.yang - onos - Gitiles

 module openconfig-ospf-types {

   yang-version "1";

   // namespace
   namespace "http://openconfig.net/yang/ospf-types";

   prefix "oc-ospf-types";

   // import some basic types
   import ietf-yang-types { prefix "yang"; }
   import openconfig-extensions { prefix "oc-ext"; }

   // meta
   organization "OpenConfig working group";

   contact
     "OpenConfig working group
     www.openconfig.net";

   description
     "Type definitions for OSPF";

   oc-ext:openconfig-version "0.1.0";

   revision "2017-02-28"{
     description
       "Initial public release of OSPFv2";
     reference "0.1.0";
   }

   revision "2016-06-24" {
     description
       "Initial revision";
     reference "0.0.1";
   }

   // typedefs
   typedef ospf-area-identifier {
     type union {
       type uint32;
       type yang:dotted-quad;
     }
     description
       "An identifier for an area with OSPF version 2 or 3. This value
       is expressed as either a dotted-quad, or a unsigned 32-bit
       number";
   }

   typedef ospf-metric {
     type uint16;
     description
       "A common type that can be utilised to express an OSPF metric";
   }

   typedef sr-sid-type {
     type enumeration {
       enum LABEL {
         description
           "When the length of the SR/Label Sub-TLV is specified to be 3, then
           the right-most 20-bits represent a label value within the SR/Label
           Sub-TLV. When this leaf is set to a value of Label the first-entry
           leaf should be interpreted to be an MPLS label.";
       }
       enum SID {
         description
           "When the length of the SR/Label Sub-TLV is specified to be 4, then
           the value specified in the first-entry leaf should be specified to
           be a segment identifier.";
       }
     }
     description
       "A common type used to express the type of segment identifier that is
       used in LSDB entries relating to segment routing";
   }

   // identities
   identity OSPF_LSA_TYPE {
     description
       "Base identity for an OSPF LSA type. This identity is intended
       to be used across both OSPFv2 and OSPFv3. Identity values that
       correspond to only one OSPF version are marked as such.";
   }

   identity ROUTER_LSA {
     base "OSPF_LSA_TYPE";
     description
       "Type 1 - ROUTER_LSA. An LSA originated by each router within
       the area describing the state and cost of the router's links
       in the area.";
     reference "RFC2328";
   }

   identity NETWORK_LSA {
     base "OSPF_LSA_TYPE";
     description
       "Type 2 - NETWORK_LSA. An LSA originated for each broadcast and
       non-broadcast multiple access (NBMA) in the area. This LSA is
       originated by the designated router.";
     reference "RFC2328";
   }

   identity SUMMARY_IP_NETWORK_LSA {
     base "OSPF_LSA_TYPE";
     description
       "Type 3 - SUMMARY_IP_NETWORK_LSA. An LSA originated by area
       border routers describing inter-area destinations. This LSA type
       is used when the destination is an IP network";
     reference "RFC2328";
   }

   identity SUMMARY_ASBR_LSA {
     base "OSPF_LSA_TYPE";
     description
       "Type 4 - SUMMARY_ASBR_LSA. An LSA originated by an area border
       router describing inter-area destinations. This LSA type is used
       when the destination is an AS boundary router.";
     reference "RFC2328";
   }

   identity AS_EXTERNAL_LSA {
     base "OSPF_LSA_TYPE";
     description
       "Type 5 - AS_EXTERNAL_LSA. This LSA type is used to describe
       destinations external to the autonomous system, and is
       originated by an AS boundary router (ASBR).";
     reference "RFC2328";
   }

   identity NSSA_AS_EXTERNAL_LSA {
     base "OSPF_LSA_TYPE";
     description
       "Type 7 - NSSA_AS_EXTERNAL_LSA. This LSA type is used by
       systems within a not-so-stubby-area (NSSA) to inject external
       prefixes into the LSDB. They are translated to Type 5 LSAs
       at an ABR device.";
     reference "RFC3101";
   }

   identity OSPFV2_LINK_SCOPE_OPAQUE_LSA {
     base "OSPF_LSA_TYPE";
     description
       "Type 9 - OSPFV2_LINK_SCOPE_OPAQUE_LSA. This LSA type is used
       in OSPFv2 to distribute arbitrary information via the OSPF
       protocol. The contents is specific to the application defining
       the Opaque Type specified within the LSDB. LSAs with Type 9 have
       a scope of the link that they are being transmitted on (and the
       associated network or subnetwork).";
     reference "RFC5250";
   }

   identity OSPFV2_AREA_SCOPE_OPAQUE_LSA {
     base "OSPF_LSA_TYPE";
     description
       "Type 10 - OSPFV2_AREA_SCOPE_OPAQUE_LSA. This LSA type is used
       in OSPFv2 to distribute arbitrary information via the OSPF
       protocol. The contents is specific to the application defining
       the Opaque Type specified within the LSDB. LSAs with Type 10 have
       a scope of the area that they are transmitted within.";
     reference "RFC5250";
   }

   identity OSPFV2_AS_SCOPE_OPAQUE_LSA {
     base "OSPF_LSA_TYPE";
     description
       "Type 11 - OSPFV2_AS_SCOPE_OPAQUE_LSA. This LSA type is used
       in OSPFv2 to distribute arbitrary information via the OSPF
       protocol. The contents is specific to the application defining
       the Opaque Type specified within the LSDB. LSAs with Type 11
       have a scope of the autonomous system that they are transmitted
       within.";
     reference "RFC5250";
   }

   identity ROUTER_LSA_TYPES {
     description
       "Sub-types of the router LSA";
   }

   identity ROUTER_LSA_P2P {
     base "ROUTER_LSA_TYPES";
     description
       "The LSA represents a point-to-point connection to another
       router";
   }

   identity ROUTER_LSA_TRANSIT_NETWORK {
     base "ROUTER_LSA_TYPES";
     description
       "The LSA represents a connection to a transit network";
   }

   identity ROUTER_LSA_STUB_NETWORK {
     base "ROUTER_LSA_TYPES";
     description
       "The LSA represents a connection to a stub network";
   }

   identity ROUTER_LSA_VIRTUAL_LINK {
     base "ROUTER_LSA_TYPES";
     description
       "The LSA represents a virtual link connection";
   }

   identity OSPF_NEIGHBOR_STATE {
     description
       "The state of an adjacency between the local system and a remote
       device";
   }

   identity DOWN {
     base "OSPF_NEIGHBOR_STATE";
     description
       "The initial state of a neighbor, indicating that no recent
       information has been received from the neighbor.";
     reference "RFC2328";
   }

   identity ATTEMPT {
     base "OSPF_NEIGHBOR_STATE";
     description
       "Utilised for neighbors that are attached to NBMA networks, it
       indicates that no information has been recently received from
       the neighbor but that Hello packets should be directly sent
       to that neighbor.";
     reference "RFC2328";
   }

   identity INIT {
     base "OSPF_NEIGHBOR_STATE";
     description
       "Indicates that a Hello packet has been received from the
       neighbor but bi-directional communication has not yet been
       established. That is to say that the local Router ID does
       not appear in the list of neighbors in the remote system's
       Hello packet.";
     reference "RFC2328";
   }

   identity TWO_WAY {
     base "OSPF_NEIGHBOR_STATE";
     description
       "Communication between the local and remote system is
       bi-directional such that the local system's Router ID is listed
       in the received remote system's Hello packet.";
     reference "RFC2328";
   }

   identity EXSTART {
     base "OSPF_NEIGHBOR_STATE";
     description
       "An adjacency with the remote system is being formed. The local
       system is currently transmitting empty database description
       packets in order to establish the master/slave relationship for
       the adjacency.";
     reference "RFC2328";
   }

   identity EXCHANGE {
     base "OSPF_NEIGHBOR_STATE";
     description
       "The local and remote systems are currently exchanging database
       description packets in order to determine which elements of
       their local LSDBs are out of date.";
     reference "RFC2328";
   }

   identity LOADING {
     base "OSPF_NEIGHBOR_STATE";
     description
       "The local system is sending Link State Request packets to the
       remote system in order to receive the more recently LSAs that
       were discovered during the Exchange phase of the procedure
       establishing the adjacency.";
     reference "RFC2328";
   }

   identity FULL {
     base "OSPF_NEIGHBOR_STATE";
     description
       "The neighboring routers are fully adjacent such that both
       LSDBs are synchronized. The adjacency will appear in Router and
       Network LSAs";
     reference "RFC2328";
   }

   identity OSPF_NETWORK_TYPE {
     description
       "Types of network that OSPF should consider attached to an
       interface";
   }

   identity POINT_TO_POINT_NETWORK {
     base "OSPF_NETWORK_TYPE";
     description
       "A interface that connects two routers.";
     reference "RFC2328";
   }

   identity BROADCAST_NETWORK {
     base "OSPF_NETWORK_TYPE";
     description
       "An interface that supports >2 attached routers which has the
       ability to address all connected systems via a single
       (broadcast) address.";
   }

   identity NON_BROADCAST_NETWORK {
     base "OSPF_NETWORK_TYPE";
     description
       "An interface that supports >2 attached rotuers which does not
       have the ability to address all connected systems with a
       broadcast address.";
   }

   // rjs TODO: Maybe need p2mp here.


   identity OSPF_OPAQUE_LSA_TYPE {
     description
       "This identity is the base used for opaque LSA types. The values
       that extend this base are those that are described in the IANA
       OSPF Opaque Link-State Advertisements (LSA) Option Types registry";
   }

   identity TRAFFIC_ENGINEERING {
     base "OSPF_OPAQUE_LSA_TYPE";
     description
       "The Traffic Engineering LSA. This type is used only with area-scope
       Opaque LSAs - and is used to describe routers, point-to-point links
       and connections to multi-access networks for traffic engineering
       purposes.";
     reference "RFC3630";
   }

   identity GRACE_LSA {
     base "OSPF_OPAQUE_LSA_TYPE";
     description
       "Grace LSAs are announced by a system undergoing graceful-restart.
       A system that is attempting an OSPF graceful restart announces
       Grace-LSAs with a specified grace period, indicating the intention
       to have completed an restart within the specified period.";
     reference "RFC3623";
   }

   identity ROUTER_INFORMATION {
     base "OSPF_OPAQUE_LSA_TYPE";
     description
       "The Router Information LSA is used by an OSPFv2 system to announce
       optional capabilities of the local system, over and above those that
       are included within the OSPF hello message field.  The flooding scope
       of the LSA can be link-, area-, or AS-wide (i.e., the LSA type can
       be 9, 10 or 11).";
     reference "RFC7770";
   }

   identity OSPFV2_EXTENDED_PREFIX {
     base "OSPF_OPAQUE_LSA_TYPE";
     description
       "The Extended Prefix LSA is used in OSPFv2 to carry a set of attributes
       that are to be associated with a prefix that is advertised in OSPF. The
       attributes are carried as one or more TLV tuples. The flooding scope
       of the LSA can be link-, area-, or AS-wide as specified by the
       advertising system. The flooding scope of the LSA may exceed the scope
       of the corresponding prefix.";
     reference "RFC7684";
   }

   identity OSPFV2_EXTENDED_LINK {
     base "OSPF_OPAQUE_LSA_TYPE";
     description
       "The Extended Link LSA is used in OSPFv2 to carry a set of attributes
       that are to be associated with a link that is advertised in OSPF. The
       link attributes are carried as one or more TLV tuples. The flooding
       scope of the link LSA is area-local - i.e., it is carried in a Type 10
       opaque LSA.";
     reference "RFC7684";
   }

   identity OSPF_TE_LSA_TLV_TYPE {
     description
       "This identity is the base used for the type field of TLVs that are
       included within the Traffic Engineering Opaque LSA.";
   }

   identity TE_ROUTER_ADDRESS {
     base "OSPF_TE_LSA_TLV_TYPE";
     description
       "A stable IP address of the advertising router that is always reachable
       if the node has connectivity.";
   }

   identity TE_LINK {
     base "OSPF_TE_LSA_TLV_TYPE";
     description
       "A single link within a traffic engineering topology. A set of sub-TLVs
       are carried within this attribute to indicate traffic engineering
       characteristics of the link.";
   }

   identity TE_ROUTER_IPV6_ADDRESS {
     base "OSPF_TE_LSA_TLV_TYPE";
     description
       "A stable IPv6 address of the advertising router that is always
       reachable if the node has connectivity. This TLV is used only with
       OSPFv3";
     reference "RFC5329";
   }

   identity TE_LINK_LOCAL {
     base "OSPF_TE_LSA_TLV_TYPE";
     description
       "Attributes associated with the local link by the system.";
     reference "RFC4203";
   }

   identity TE_NODE_ATTRIBUTE {
     base "OSPF_TE_LSA_TLV_TYPE";
     description
       "Attributes associted with the local system";
     reference "RFC5786";
   }

   identity TE_OPTICAL_NODE_PROPERTY {
     base "OSPF_TE_LSA_TLV_TYPE";
     description
       "Attributes associated with the local optical node. A set of sub-TLVs
       are carried within this TLV which are used within the GMPLS control
       plane when using OSPF";
   }

   identity OSPF_TE_LINK_TLV_TYPE {
     description
       "This identity is the based used for the type field for sub-TLVs of the
       Link TLV of the OSPF Traffic Engineering Opaque LSA";
   }

   identity TE_LINK_TYPE {
     base "OSPF_TE_LINK_TLV_TYPE";
     description
       "The OSPF-TE Link Type sub-TLV appears exactly once per OSPF-TE Link
       and describes the type of the link";
   }

   identity TE_LINK_ID {
     base "OSPF_TE_LINK_TLV_TYPE";
     description
       "The OSPF-TE Link ID sub-TLV appears exactly once per OSPF-TE link and
       identifies the remote end of the link.";
   }

   identity TE_LINK_LOCAL_IP {
     base "OSPF_TE_LINK_TLV_TYPE";
     description
       "The OSPF-TE Local IP specifies a list of the interface addresses of the
       local system corresponding to the traffic engineering link.";
   }

   identity TE_LINK_REMOTE_IP {
     base "OSPF_TE_LINK_TLV_TYPE";
     description
       "The OSPF-TE Remote IP specifies a list of IP addresses of the remote
       neighbors associated with the traffic engineering link.";
   }

   identity TE_LINK_METRIC {
     base "OSPF_TE_LINK_TLV_TYPE";
     description
       "The OSPF-TE Metric specifies the link metric for traffic engineering
       purposes";
   }

   identity TE_LINK_MAXIMUM_BANDWIDTH {
     base "OSPF_TE_LINK_TLV_TYPE";
     description
       "The OSPF-TE Maximum Bandwidth specifies the maximum bandwidth of the
       link that it is associated with.";
   }

   identity TE_LINK_MAXIMUM_RESERVABLE_BANDWIDTH {
     base "OSPF_TE_LINK_TLV_TYPE";
     description
       "The OSPF-TE Maximum Reservable Bandwidth specifies the maximum
       bandwidth that may be reserved on the link in bytes per second";
   }

   identity TE_LINK_UNRESERVED_BANDWIDTH {
     base "OSPF_TE_LINK_TLV_TYPE";
     description
       "The OSPF-TE unreserved bandwidth indicates the amount of bandwidth
       at each priority level that is currently not reserved";
   }

   identity TE_LINK_ADMIN_GROUP {
     base "OSPF_TE_LINK_TLV_TYPE";
     description
       "The OSPF-TE administrative group indicates the administrative group
       that the is assigned to the interface";
   }

   identity TE_NODE_ATTRIBUTE_TLV_TYPE {
     description
       "This identity forms the base for sub-TLVs of the Node Attribute TLV
       of the Traffic Engineering LSA";
   }

   identity NODE_IPV4_LOCAL_ADDRESS {
     base "TE_NODE_ATTRIBUTE_TLV_TYPE";
     description
       "The Node Attribute Sub-TLV contains a list of the IPv4 addresses of
       the local system";
   }

   identity NODE_IPV6_LOCAL_ADDRESS {
     base "TE_NODE_ATTRIBUTE_TLV_TYPE";
     description
       "The Node Attribute Sub-TLV contains a list of the IPv6 addresses of
       the local system";
   }

   identity GRACE_LSA_TLV_TYPES {
     description
       "This identity is used as the base for TLVs within the Grace LSA";
   }

   identity GRACE_PERIOD {
     base "GRACE_LSA_TLV_TYPES";
     description
       "This sub-TLV describes the period for which adjacencies should be
       maintained with the restarting system";
   }

   identity GRACE_RESTART_REASON {
     base "GRACE_LSA_TLV_TYPES";
     description
       "This sub-TLV describes the reason for the OSPF restart of the system
       that is restarting";
   }

   identity GRACE_IP_INTERFACE_ADDRESS {
     base "GRACE_LSA_TLV_TYPES";
     description
       "This sub-TLV specifies the restarting system's IP address on the
       interface via which it is advertising the Grace LSA";
   }

   identity RI_LSA_TLV_TYPES {
     description
       "This identity is used as the base for the TLVs within the Router
       Information LSA";
     reference "RFC7770";
   }

   identity RI_INFORMATIONAL_CAPABILITIES {
     base "RI_LSA_TLV_TYPES";
     description
       "Informational capabilities of the advertising system";
     reference "RFC7770";
   }

   identity RI_FUNCTIONAL_CAPABILITIES {
     base "RI_LSA_TLV_TYPES";
     description
       "Functional capabilities of the advertising system";
     reference "RFC7770";
   }

   identity RI_NODE_ADMIN_TAG {
     base "RI_LSA_TLV_TYPES";
     description
       "Operator-defined administrative tags associated with the advertising
       system";
     reference "RFC7777";
   }

   identity RI_SR_SID_LABEL_RANGE {
     base "RI_LSA_TLV_TYPES";
     description
       "SID or Label ranges for use with segment routing when forwarding to
       the advertising system";
     reference "draft-ietf-ospf-segment-routing-extensions";
   }

   identity RI_SR_ALGORITHM {
     base "RI_LSA_TLV_TYPES";
     description
       "The algorithms that are supported for segment routing by the
       advertising system";
     reference "draft-ietf-ospf-segment-routing-extensions";
   }

   // will be shared with IS-IS
   identity SR_ALGORITHM {
     description
       "This identity is used as a base for the algorithms that can be
       supported for segment routing and are advertised by a system in the RI
       LSA";
   }

   identity SPF {
     base "SR_ALGORITHM";
     description
       "The standard shortest path algorithm based on link metric,
       as used by the OSPF protocol";
   }

   identity STRICT_SPF {
     base "SR_ALGORITHM";
     description
       "The standard shortest path algorithm based on link metric, with the
       requirement that all nodes along the path honor the SPF decision. That
       is to say that the SPF decision cannot be altered by local policy at
       the node";
   }

   identity OSPF_RI_SR_SID_LABEL_TLV_TYPES {
     description
       "This identity is used as a base for the sub-TLVs of the Segment
       Routing SID/Label Range TLV";
   }

   identity SR_SID_LABEL_TLV {
     base "OSPF_RI_SR_SID_LABEL_TLV_TYPES";
     description
       "A range of SID/Label values used by the local system";
     reference "draft-ietf-ospf-segment-routing-extensions";
   }

   identity OSPFV2_ROUTER_LINK_TYPE {
     description
       "OSPFv2 Router Link Types as per the IANA registry defined in
       RFC2740";
   }

   identity POINT_TO_POINT_LINK {
     base "OSPFV2_ROUTER_LINK_TYPE";
     description
       "The link is a point-to-point connection to another router";
   }

   identity TRANSIT_NETWORK_LINK {
     base "OSPFV2_ROUTER_LINK_TYPE";
     description
       "The link is a connection to a transit network";
   }

   identity STUB_NETWORK_LINK {
     base "OSPFV2_ROUTER_LINK_TYPE";
     description
       "The link is a connection to a stub network";
   }

   identity VIRTUAL_LINK {
     base "OSPFV2_ROUTER_LINK_TYPE";
     description
       "The link is a virtual connection to another router";
   }

   identity OSPFV2_EXTENDED_PREFIX_SUBTLV_TYPE {
     description
       "Sub-TLVs of the OSPFv2 Extended Prefix LSA as defined by
       RFC7684";
   }

   identity EXTENDED_PREFIX_RANGE {
     base "OSPFV2_EXTENDED_PREFIX_SUBTLV_TYPE";
     description
       "The attributes being described relate to a range of prefixes";
   }

   identity PREFIX_SID {
     base "OSPFV2_EXTENDED_PREFIX_SUBTLV_TYPE";
     description
       "The TLV describes a Segment Routing Prefix Segment Identifier
       associated with a prefix";
   }

   identity SID_LABEL_BINDING {
     base "OSPFV2_EXTENDED_PREFIX_SUBTLV_TYPE";
     description
       "The TLV describes a binding of a SID to a path to the prefix,
       which may have associated path characteristics";
   }

   identity OSPFV2_EXTENDED_PREFIX_SID_LABEL_BINDING_SUBTLV_TYPE {
     description
       "Sub-TLV types carried in the SID/Label Binding Sub-TLV of
       the Extended Prefix Sub-TLV";
   }

   identity SID_MPLS_LABEL_BINDING {
     base "OSPFV2_EXTENDED_PREFIX_SID_LABEL_BINDING_SUBTLV_TYPE";
     description
       "This sub-TLV indicates a binding between an SR SID and an
       MPLS label and must be present in the sub-TLV";
   }

   identity ERO_METRIC {
     base "OSPFV2_EXTENDED_PREFIX_SID_LABEL_BINDING_SUBTLV_TYPE";
     description
       "This sub-TLV indicates the cost of the ERO path being
       advertised in the SID/Label TLV";
   }

   identity ERO_PATH {
     base "OSPFV2_EXTENDED_PREFIX_SID_LABEL_BINDING_SUBTLV_TYPE";
     description
       "This sub-TLV indicates the path associated with an ERO
       being advertised in the SID/Label TLV";
   }

   identity OSPFV2_EXTPREFIX_BINDING_ERO_PATH_SEGMENT_TYPE {
     description
       "The types of segment included within an ERO Path described
       within the SID/Label binding sub-TLV";
   }

   identity IPV4_SEGMENT {
     base "OSPFV2_EXTPREFIX_BINDING_ERO_PATH_SEGMENT_TYPE";
     description
       "The segment is specified as an IPv4 address";
   }

   identity UNNUMBERED_INTERFACE_SEGMENT {
     base "OSPFV2_EXTPREFIX_BINDING_ERO_PATH_SEGMENT_TYPE";
     description
       "The segment is specified as an unnumbered interface of
       a remote system";
   }

   identity OSPFV2_EXTENDED_LINK_SUBTLV_TYPE {
     description
       "Sub-TLVs of the Extended Link TLV for OSPFv2";
   }

   identity ADJACENCY_SID {
     base "OSPFV2_EXTENDED_LINK_SUBTLV_TYPE";
     description
       "The extended link sub-TLV indicates an Adjacency SID";
   }

   identity MAX_METRIC_TRIGGER {
     description
       "Triggers which cause the maximum metric to be set for
       entities advertised in OSPF";
   }

   identity MAX_METRIC_ON_SYSTEM_BOOT {
     base "MAX_METRIC_TRIGGER";
     description
       "Set the maximum metric when the system boots.";
   }

   identity MAX_METRIC_INCLUDE {
     description
       "Entities that may optionally be included when advertising
       the maximum metric.";
   }

   identity MAX_METRIC_INCLUDE_STUB {
     base "MAX_METRIC_INCLUDE";
     description
       "Include stub networks when advertising the maximum metric.";
   }

   identity MAX_METRIC_INCLUDE_TYPE2_EXTERNAL {
     base "MAX_METRIC_INCLUDE";
     description
       "Include OSPF Type 2 external routes when advertising
       the maximum metric.";
   }
 }
	module openconfig-ospf-types {

	yang-version "1";

	// namespace
	namespace "http://openconfig.net/yang/ospf-types";

	prefix "oc-ospf-types";

	// import some basic types
	import ietf-yang-types { prefix "yang"; }
	import openconfig-extensions { prefix "oc-ext"; }

	// meta
	organization "OpenConfig working group";

	contact
	"OpenConfig working group
	www.openconfig.net";

	description
	"Type definitions for OSPF";

	oc-ext:openconfig-version "0.1.0";

	revision "2017-02-28"{
	description
	"Initial public release of OSPFv2";
	reference "0.1.0";
	}

	revision "2016-06-24" {
	description
	"Initial revision";
	reference "0.0.1";
	}

	// typedefs
	typedef ospf-area-identifier {
	type union {
	type uint32;
	type yang:dotted-quad;
	}
	description
	"An identifier for an area with OSPF version 2 or 3. This value
	is expressed as either a dotted-quad, or a unsigned 32-bit
	number";
	}

	typedef ospf-metric {
	type uint16;
	description
	"A common type that can be utilised to express an OSPF metric";
	}

	typedef sr-sid-type {
	type enumeration {
	enum LABEL {
	description
	"When the length of the SR/Label Sub-TLV is specified to be 3, then
	the right-most 20-bits represent a label value within the SR/Label
	Sub-TLV. When this leaf is set to a value of Label the first-entry
	leaf should be interpreted to be an MPLS label.";
	}
	enum SID {
	description
	"When the length of the SR/Label Sub-TLV is specified to be 4, then
	the value specified in the first-entry leaf should be specified to
	be a segment identifier.";
	}
	}
	description
	"A common type used to express the type of segment identifier that is
	used in LSDB entries relating to segment routing";
	}

	// identities
	identity OSPF_LSA_TYPE {
	description
	"Base identity for an OSPF LSA type. This identity is intended
	to be used across both OSPFv2 and OSPFv3. Identity values that
	correspond to only one OSPF version are marked as such.";
	}

	identity ROUTER_LSA {
	base "OSPF_LSA_TYPE";
	description
	"Type 1 - ROUTER_LSA. An LSA originated by each router within
	the area describing the state and cost of the router's links
	in the area.";
	reference "RFC2328";
	}

	identity NETWORK_LSA {
	base "OSPF_LSA_TYPE";
	description
	"Type 2 - NETWORK_LSA. An LSA originated for each broadcast and
	non-broadcast multiple access (NBMA) in the area. This LSA is
	originated by the designated router.";
	reference "RFC2328";
	}

	identity SUMMARY_IP_NETWORK_LSA {
	base "OSPF_LSA_TYPE";
	description
	"Type 3 - SUMMARY_IP_NETWORK_LSA. An LSA originated by area
	border routers describing inter-area destinations. This LSA type
	is used when the destination is an IP network";
	reference "RFC2328";
	}

	identity SUMMARY_ASBR_LSA {
	base "OSPF_LSA_TYPE";
	description
	"Type 4 - SUMMARY_ASBR_LSA. An LSA originated by an area border
	router describing inter-area destinations. This LSA type is used
	when the destination is an AS boundary router.";
	reference "RFC2328";
	}

	identity AS_EXTERNAL_LSA {
	base "OSPF_LSA_TYPE";
	description
	"Type 5 - AS_EXTERNAL_LSA. This LSA type is used to describe
	destinations external to the autonomous system, and is
	originated by an AS boundary router (ASBR).";
	reference "RFC2328";
	}

	identity NSSA_AS_EXTERNAL_LSA {
	base "OSPF_LSA_TYPE";
	description
	"Type 7 - NSSA_AS_EXTERNAL_LSA. This LSA type is used by
	systems within a not-so-stubby-area (NSSA) to inject external
	prefixes into the LSDB. They are translated to Type 5 LSAs
	at an ABR device.";
	reference "RFC3101";
	}

	identity OSPFV2_LINK_SCOPE_OPAQUE_LSA {
	base "OSPF_LSA_TYPE";
	description
	"Type 9 - OSPFV2_LINK_SCOPE_OPAQUE_LSA. This LSA type is used
	in OSPFv2 to distribute arbitrary information via the OSPF
	protocol. The contents is specific to the application defining
	the Opaque Type specified within the LSDB. LSAs with Type 9 have
	a scope of the link that they are being transmitted on (and the
	associated network or subnetwork).";
	reference "RFC5250";
	}

	identity OSPFV2_AREA_SCOPE_OPAQUE_LSA {
	base "OSPF_LSA_TYPE";
	description
	"Type 10 - OSPFV2_AREA_SCOPE_OPAQUE_LSA. This LSA type is used
	in OSPFv2 to distribute arbitrary information via the OSPF
	protocol. The contents is specific to the application defining
	the Opaque Type specified within the LSDB. LSAs with Type 10 have
	a scope of the area that they are transmitted within.";
	reference "RFC5250";
	}

	identity OSPFV2_AS_SCOPE_OPAQUE_LSA {
	base "OSPF_LSA_TYPE";
	description
	"Type 11 - OSPFV2_AS_SCOPE_OPAQUE_LSA. This LSA type is used
	in OSPFv2 to distribute arbitrary information via the OSPF
	protocol. The contents is specific to the application defining
	the Opaque Type specified within the LSDB. LSAs with Type 11
	have a scope of the autonomous system that they are transmitted
	within.";
	reference "RFC5250";
	}

	identity ROUTER_LSA_TYPES {
	description
	"Sub-types of the router LSA";
	}

	identity ROUTER_LSA_P2P {
	base "ROUTER_LSA_TYPES";
	description
	"The LSA represents a point-to-point connection to another
	router";
	}

	identity ROUTER_LSA_TRANSIT_NETWORK {
	base "ROUTER_LSA_TYPES";
	description
	"The LSA represents a connection to a transit network";
	}

	identity ROUTER_LSA_STUB_NETWORK {
	base "ROUTER_LSA_TYPES";
	description
	"The LSA represents a connection to a stub network";
	}

	identity ROUTER_LSA_VIRTUAL_LINK {
	base "ROUTER_LSA_TYPES";
	description
	"The LSA represents a virtual link connection";
	}

	identity OSPF_NEIGHBOR_STATE {
	description
	"The state of an adjacency between the local system and a remote
	device";
	}

	identity DOWN {
	base "OSPF_NEIGHBOR_STATE";
	description
	"The initial state of a neighbor, indicating that no recent
	information has been received from the neighbor.";
	reference "RFC2328";
	}

	identity ATTEMPT {
	base "OSPF_NEIGHBOR_STATE";
	description
	"Utilised for neighbors that are attached to NBMA networks, it
	indicates that no information has been recently received from
	the neighbor but that Hello packets should be directly sent
	to that neighbor.";
	reference "RFC2328";
	}

	identity INIT {
	base "OSPF_NEIGHBOR_STATE";
	description
	"Indicates that a Hello packet has been received from the
	neighbor but bi-directional communication has not yet been
	established. That is to say that the local Router ID does
	not appear in the list of neighbors in the remote system's
	Hello packet.";
	reference "RFC2328";
	}

	identity TWO_WAY {
	base "OSPF_NEIGHBOR_STATE";
	description
	"Communication between the local and remote system is
	bi-directional such that the local system's Router ID is listed
	in the received remote system's Hello packet.";
	reference "RFC2328";
	}

	identity EXSTART {
	base "OSPF_NEIGHBOR_STATE";
	description
	"An adjacency with the remote system is being formed. The local
	system is currently transmitting empty database description
	packets in order to establish the master/slave relationship for
	the adjacency.";
	reference "RFC2328";
	}

	identity EXCHANGE {
	base "OSPF_NEIGHBOR_STATE";
	description
	"The local and remote systems are currently exchanging database
	description packets in order to determine which elements of
	their local LSDBs are out of date.";
	reference "RFC2328";
	}

	identity LOADING {
	base "OSPF_NEIGHBOR_STATE";
	description
	"The local system is sending Link State Request packets to the
	remote system in order to receive the more recently LSAs that
	were discovered during the Exchange phase of the procedure
	establishing the adjacency.";
	reference "RFC2328";
	}

	identity FULL {
	base "OSPF_NEIGHBOR_STATE";
	description
	"The neighboring routers are fully adjacent such that both
	LSDBs are synchronized. The adjacency will appear in Router and
	Network LSAs";
	reference "RFC2328";
	}

	identity OSPF_NETWORK_TYPE {
	description
	"Types of network that OSPF should consider attached to an
	interface";
	}

	identity POINT_TO_POINT_NETWORK {
	base "OSPF_NETWORK_TYPE";
	description
	"A interface that connects two routers.";
	reference "RFC2328";
	}

	identity BROADCAST_NETWORK {
	base "OSPF_NETWORK_TYPE";
	description
	"An interface that supports >2 attached routers which has the
	ability to address all connected systems via a single
	(broadcast) address.";
	}

	identity NON_BROADCAST_NETWORK {
	base "OSPF_NETWORK_TYPE";
	description
	"An interface that supports >2 attached rotuers which does not
	have the ability to address all connected systems with a
	broadcast address.";
	}

	// rjs TODO: Maybe need p2mp here.


	identity OSPF_OPAQUE_LSA_TYPE {
	description
	"This identity is the base used for opaque LSA types. The values
	that extend this base are those that are described in the IANA
	OSPF Opaque Link-State Advertisements (LSA) Option Types registry";
	}

	identity TRAFFIC_ENGINEERING {
	base "OSPF_OPAQUE_LSA_TYPE";
	description
	"The Traffic Engineering LSA. This type is used only with area-scope
	Opaque LSAs - and is used to describe routers, point-to-point links
	and connections to multi-access networks for traffic engineering
	purposes.";
	reference "RFC3630";
	}

	identity GRACE_LSA {
	base "OSPF_OPAQUE_LSA_TYPE";
	description
	"Grace LSAs are announced by a system undergoing graceful-restart.
	A system that is attempting an OSPF graceful restart announces
	Grace-LSAs with a specified grace period, indicating the intention
	to have completed an restart within the specified period.";
	reference "RFC3623";
	}

	identity ROUTER_INFORMATION {
	base "OSPF_OPAQUE_LSA_TYPE";
	description
	"The Router Information LSA is used by an OSPFv2 system to announce
	optional capabilities of the local system, over and above those that
	are included within the OSPF hello message field. The flooding scope
	of the LSA can be link-, area-, or AS-wide (i.e., the LSA type can
	be 9, 10 or 11).";
	reference "RFC7770";
	}

	identity OSPFV2_EXTENDED_PREFIX {
	base "OSPF_OPAQUE_LSA_TYPE";
	description
	"The Extended Prefix LSA is used in OSPFv2 to carry a set of attributes
	that are to be associated with a prefix that is advertised in OSPF. The
	attributes are carried as one or more TLV tuples. The flooding scope
	of the LSA can be link-, area-, or AS-wide as specified by the
	advertising system. The flooding scope of the LSA may exceed the scope
	of the corresponding prefix.";
	reference "RFC7684";
	}

	identity OSPFV2_EXTENDED_LINK {
	base "OSPF_OPAQUE_LSA_TYPE";
	description
	"The Extended Link LSA is used in OSPFv2 to carry a set of attributes
	that are to be associated with a link that is advertised in OSPF. The
	link attributes are carried as one or more TLV tuples. The flooding
	scope of the link LSA is area-local - i.e., it is carried in a Type 10
	opaque LSA.";
	reference "RFC7684";
	}

	identity OSPF_TE_LSA_TLV_TYPE {
	description
	"This identity is the base used for the type field of TLVs that are
	included within the Traffic Engineering Opaque LSA.";
	}

	identity TE_ROUTER_ADDRESS {
	base "OSPF_TE_LSA_TLV_TYPE";
	description
	"A stable IP address of the advertising router that is always reachable
	if the node has connectivity.";
	}

	identity TE_LINK {
	base "OSPF_TE_LSA_TLV_TYPE";
	description
	"A single link within a traffic engineering topology. A set of sub-TLVs
	are carried within this attribute to indicate traffic engineering
	characteristics of the link.";
	}

	identity TE_ROUTER_IPV6_ADDRESS {
	base "OSPF_TE_LSA_TLV_TYPE";
	description
	"A stable IPv6 address of the advertising router that is always
	reachable if the node has connectivity. This TLV is used only with
	OSPFv3";
	reference "RFC5329";
	}

	identity TE_LINK_LOCAL {
	base "OSPF_TE_LSA_TLV_TYPE";
	description
	"Attributes associated with the local link by the system.";
	reference "RFC4203";
	}

	identity TE_NODE_ATTRIBUTE {
	base "OSPF_TE_LSA_TLV_TYPE";
	description
	"Attributes associted with the local system";
	reference "RFC5786";
	}

	identity TE_OPTICAL_NODE_PROPERTY {
	base "OSPF_TE_LSA_TLV_TYPE";
	description
	"Attributes associated with the local optical node. A set of sub-TLVs
	are carried within this TLV which are used within the GMPLS control
	plane when using OSPF";
	}

	identity OSPF_TE_LINK_TLV_TYPE {
	description
	"This identity is the based used for the type field for sub-TLVs of the
	Link TLV of the OSPF Traffic Engineering Opaque LSA";
	}

	identity TE_LINK_TYPE {
	base "OSPF_TE_LINK_TLV_TYPE";
	description
	"The OSPF-TE Link Type sub-TLV appears exactly once per OSPF-TE Link
	and describes the type of the link";
	}

	identity TE_LINK_ID {
	base "OSPF_TE_LINK_TLV_TYPE";
	description
	"The OSPF-TE Link ID sub-TLV appears exactly once per OSPF-TE link and
	identifies the remote end of the link.";
	}

	identity TE_LINK_LOCAL_IP {
	base "OSPF_TE_LINK_TLV_TYPE";
	description
	"The OSPF-TE Local IP specifies a list of the interface addresses of the
	local system corresponding to the traffic engineering link.";
	}

	identity TE_LINK_REMOTE_IP {
	base "OSPF_TE_LINK_TLV_TYPE";
	description
	"The OSPF-TE Remote IP specifies a list of IP addresses of the remote
	neighbors associated with the traffic engineering link.";
	}

	identity TE_LINK_METRIC {
	base "OSPF_TE_LINK_TLV_TYPE";
	description
	"The OSPF-TE Metric specifies the link metric for traffic engineering
	purposes";
	}

	identity TE_LINK_MAXIMUM_BANDWIDTH {
	base "OSPF_TE_LINK_TLV_TYPE";
	description
	"The OSPF-TE Maximum Bandwidth specifies the maximum bandwidth of the
	link that it is associated with.";
	}

	identity TE_LINK_MAXIMUM_RESERVABLE_BANDWIDTH {
	base "OSPF_TE_LINK_TLV_TYPE";
	description
	"The OSPF-TE Maximum Reservable Bandwidth specifies the maximum
	bandwidth that may be reserved on the link in bytes per second";
	}

	identity TE_LINK_UNRESERVED_BANDWIDTH {
	base "OSPF_TE_LINK_TLV_TYPE";
	description
	"The OSPF-TE unreserved bandwidth indicates the amount of bandwidth
	at each priority level that is currently not reserved";
	}

	identity TE_LINK_ADMIN_GROUP {
	base "OSPF_TE_LINK_TLV_TYPE";
	description
	"The OSPF-TE administrative group indicates the administrative group
	that the is assigned to the interface";
	}

	identity TE_NODE_ATTRIBUTE_TLV_TYPE {
	description
	"This identity forms the base for sub-TLVs of the Node Attribute TLV
	of the Traffic Engineering LSA";
	}

	identity NODE_IPV4_LOCAL_ADDRESS {
	base "TE_NODE_ATTRIBUTE_TLV_TYPE";
	description
	"The Node Attribute Sub-TLV contains a list of the IPv4 addresses of
	the local system";
	}

	identity NODE_IPV6_LOCAL_ADDRESS {
	base "TE_NODE_ATTRIBUTE_TLV_TYPE";
	description
	"The Node Attribute Sub-TLV contains a list of the IPv6 addresses of
	the local system";
	}

	identity GRACE_LSA_TLV_TYPES {
	description
	"This identity is used as the base for TLVs within the Grace LSA";
	}

	identity GRACE_PERIOD {
	base "GRACE_LSA_TLV_TYPES";
	description
	"This sub-TLV describes the period for which adjacencies should be
	maintained with the restarting system";
	}

	identity GRACE_RESTART_REASON {
	base "GRACE_LSA_TLV_TYPES";
	description
	"This sub-TLV describes the reason for the OSPF restart of the system
	that is restarting";
	}

	identity GRACE_IP_INTERFACE_ADDRESS {
	base "GRACE_LSA_TLV_TYPES";
	description
	"This sub-TLV specifies the restarting system's IP address on the
	interface via which it is advertising the Grace LSA";
	}

	identity RI_LSA_TLV_TYPES {
	description
	"This identity is used as the base for the TLVs within the Router
	Information LSA";
	reference "RFC7770";
	}

	identity RI_INFORMATIONAL_CAPABILITIES {
	base "RI_LSA_TLV_TYPES";
	description
	"Informational capabilities of the advertising system";
	reference "RFC7770";
	}

	identity RI_FUNCTIONAL_CAPABILITIES {
	base "RI_LSA_TLV_TYPES";
	description
	"Functional capabilities of the advertising system";
	reference "RFC7770";
	}

	identity RI_NODE_ADMIN_TAG {
	base "RI_LSA_TLV_TYPES";
	description
	"Operator-defined administrative tags associated with the advertising
	system";
	reference "RFC7777";
	}

	identity RI_SR_SID_LABEL_RANGE {
	base "RI_LSA_TLV_TYPES";
	description
	"SID or Label ranges for use with segment routing when forwarding to
	the advertising system";
	reference "draft-ietf-ospf-segment-routing-extensions";
	}

	identity RI_SR_ALGORITHM {
	base "RI_LSA_TLV_TYPES";
	description
	"The algorithms that are supported for segment routing by the
	advertising system";
	reference "draft-ietf-ospf-segment-routing-extensions";
	}

	// will be shared with IS-IS
	identity SR_ALGORITHM {
	description
	"This identity is used as a base for the algorithms that can be
	supported for segment routing and are advertised by a system in the RI
	LSA";
	}

	identity SPF {
	base "SR_ALGORITHM";
	description
	"The standard shortest path algorithm based on link metric,
	as used by the OSPF protocol";
	}

	identity STRICT_SPF {
	base "SR_ALGORITHM";
	description
	"The standard shortest path algorithm based on link metric, with the
	requirement that all nodes along the path honor the SPF decision. That
	is to say that the SPF decision cannot be altered by local policy at
	the node";
	}

	identity OSPF_RI_SR_SID_LABEL_TLV_TYPES {
	description
	"This identity is used as a base for the sub-TLVs of the Segment
	Routing SID/Label Range TLV";
	}

	identity SR_SID_LABEL_TLV {
	base "OSPF_RI_SR_SID_LABEL_TLV_TYPES";
	description
	"A range of SID/Label values used by the local system";
	reference "draft-ietf-ospf-segment-routing-extensions";
	}

	identity OSPFV2_ROUTER_LINK_TYPE {
	description
	"OSPFv2 Router Link Types as per the IANA registry defined in
	RFC2740";
	}

	identity POINT_TO_POINT_LINK {
	base "OSPFV2_ROUTER_LINK_TYPE";
	description
	"The link is a point-to-point connection to another router";
	}

	identity TRANSIT_NETWORK_LINK {
	base "OSPFV2_ROUTER_LINK_TYPE";
	description
	"The link is a connection to a transit network";
	}

	identity STUB_NETWORK_LINK {
	base "OSPFV2_ROUTER_LINK_TYPE";
	description
	"The link is a connection to a stub network";
	}

	identity VIRTUAL_LINK {
	base "OSPFV2_ROUTER_LINK_TYPE";
	description
	"The link is a virtual connection to another router";
	}

	identity OSPFV2_EXTENDED_PREFIX_SUBTLV_TYPE {
	description
	"Sub-TLVs of the OSPFv2 Extended Prefix LSA as defined by
	RFC7684";
	}

	identity EXTENDED_PREFIX_RANGE {
	base "OSPFV2_EXTENDED_PREFIX_SUBTLV_TYPE";
	description
	"The attributes being described relate to a range of prefixes";
	}

	identity PREFIX_SID {
	base "OSPFV2_EXTENDED_PREFIX_SUBTLV_TYPE";
	description
	"The TLV describes a Segment Routing Prefix Segment Identifier
	associated with a prefix";
	}

	identity SID_LABEL_BINDING {
	base "OSPFV2_EXTENDED_PREFIX_SUBTLV_TYPE";
	description
	"The TLV describes a binding of a SID to a path to the prefix,
	which may have associated path characteristics";
	}

	identity OSPFV2_EXTENDED_PREFIX_SID_LABEL_BINDING_SUBTLV_TYPE {
	description
	"Sub-TLV types carried in the SID/Label Binding Sub-TLV of
	the Extended Prefix Sub-TLV";
	}

	identity SID_MPLS_LABEL_BINDING {
	base "OSPFV2_EXTENDED_PREFIX_SID_LABEL_BINDING_SUBTLV_TYPE";
	description
	"This sub-TLV indicates a binding between an SR SID and an
	MPLS label and must be present in the sub-TLV";
	}

	identity ERO_METRIC {
	base "OSPFV2_EXTENDED_PREFIX_SID_LABEL_BINDING_SUBTLV_TYPE";
	description
	"This sub-TLV indicates the cost of the ERO path being
	advertised in the SID/Label TLV";
	}

	identity ERO_PATH {
	base "OSPFV2_EXTENDED_PREFIX_SID_LABEL_BINDING_SUBTLV_TYPE";
	description
	"This sub-TLV indicates the path associated with an ERO
	being advertised in the SID/Label TLV";
	}

	identity OSPFV2_EXTPREFIX_BINDING_ERO_PATH_SEGMENT_TYPE {
	description
	"The types of segment included within an ERO Path described
	within the SID/Label binding sub-TLV";
	}

	identity IPV4_SEGMENT {
	base "OSPFV2_EXTPREFIX_BINDING_ERO_PATH_SEGMENT_TYPE";
	description
	"The segment is specified as an IPv4 address";
	}

	identity UNNUMBERED_INTERFACE_SEGMENT {
	base "OSPFV2_EXTPREFIX_BINDING_ERO_PATH_SEGMENT_TYPE";
	description
	"The segment is specified as an unnumbered interface of
	a remote system";
	}

	identity OSPFV2_EXTENDED_LINK_SUBTLV_TYPE {
	description
	"Sub-TLVs of the Extended Link TLV for OSPFv2";
	}

	identity ADJACENCY_SID {
	base "OSPFV2_EXTENDED_LINK_SUBTLV_TYPE";
	description
	"The extended link sub-TLV indicates an Adjacency SID";
	}

	identity MAX_METRIC_TRIGGER {
	description
	"Triggers which cause the maximum metric to be set for
	entities advertised in OSPF";
	}

	identity MAX_METRIC_ON_SYSTEM_BOOT {
	base "MAX_METRIC_TRIGGER";
	description
	"Set the maximum metric when the system boots.";
	}

	identity MAX_METRIC_INCLUDE {
	description
	"Entities that may optionally be included when advertising
	the maximum metric.";
	}

	identity MAX_METRIC_INCLUDE_STUB {
	base "MAX_METRIC_INCLUDE";
	description
	"Include stub networks when advertising the maximum metric.";
	}

	identity MAX_METRIC_INCLUDE_TYPE2_EXTERNAL {
	base "MAX_METRIC_INCLUDE";
	description
	"Include OSPF Type 2 external routes when advertising
	the maximum metric.";
	}
	}